# uncompyle6 version 3.2.3
# Python bytecode 3.6 (3379)
# Decompiled from: Python 3.6.8 |Anaconda custom (64-bit)| (default, Feb 21 2019, 18:30:04) [MSC v.1916 64 bit (AMD64)]
# Embedded file name: site-packages\Crypto\Hash\__init__.py
"""Hashing algorithms

Hash functions take arbitrary binary strings as input, and produce a random-like output
of fixed size that is dependent on the input; it should be practically infeasible 
to derive the original input data given only the hash function's
output. In other words, the hash function is *one-way*.

It should also not be practically feasible to find a second piece of data
(a *second pre-image*) whose hash is the same as the original message
(*weak collision resistance*).

Finally, it should not be feasible to find two arbitrary messages with the
same hash (*strong collision resistance*).

The output of the hash function is called the *digest* of the input message.
In general, the security of a hash function is related to the length of the
digest. If the digest is *n* bits long, its security level is roughly comparable
to the the one offered by an *n/2* bit encryption algorithm.

Hash functions can be used simply as a integrity check, or, in
association with a public-key algorithm, can be used to implement
digital signatures.

The hashing modules here all support the interface described in `PEP
247`_ , "API for Cryptographic Hash Functions". 

.. _`PEP 247` : http://www.python.org/dev/peps/pep-0247/

:undocumented: _MD2, _MD4, _RIPEMD160, _SHA224, _SHA256, _SHA384, _SHA512
"""
__all__ = [
    "HMAC",
    "MD2",
    "MD4",
    "MD5",
    "RIPEMD",
    "SHA",
    "SHA224",
    "SHA256",
    "SHA384",
    "SHA512",
]
__revision__ = "$Id$"
